DIPARTIMENTO DI CHIMICA, MATERIALI E INGEGNERIA CHIMICA "GIULIO NATTA" (DCMC)
Direttore:
Marinella Rita Maria Levi
Marinella Rita Maria Levi
Sede:
Piazza Leonardo da Vinci, 32 - 20133 Milano
Tel./ph.: +39.02.2399.3200 - Fax: +39.02.7063.8173
Piazza Leonardo da Vinci, 32 - 20133 Milano
Tel./ph.: +39.02.2399.3200 - Fax: +39.02.7063.8173
TEMI DI RICERCA SVILUPPATI
Biological Engineering
- LS1_7 Molecular biophysics, biomechanics, bioenergetics
- LS5_11 Neurological and neurodegenerative disorders
- LS7_2 Medical technologies and tools (including genetic tools and biomarkers) for prevention, diagnosis, monitoring and treatment of diseases
- LS7_5 Applied gene, cell and immune therapies
- LS9_1 Bioingeneering for synthetic and chemical biology
- LS9_2 Applied bioengineering, synthetic biology, chemical biology, nanobiotechnology, metabolic engineering, protein and glyco-engineering, tissue engineering, biocatalysis, biomimetics
- LS9_3 Bioingeneering of cells, tissues, organs and organisms
- PE3_16 Physics of biological systems
- PE4_11 Physical chemistry of biological systems
- PE4_4 Surface science and nanostructures
- PE4_8 Electrochemistry, electrodialysis, microfluidics, sensors
- PE5_10 Colloid chemistry
- PE5_7 Biomaterials synthesis
- PE7_3 Simulation engineering and modelling
- PE7_4 (Micro- and nano-) systems engineering
- PE8_13 Industrial bioengineering
- PE8_14 Automotive and rail engineering; multi-/inter-modal transport engineering
- PE8_8 Propulsion engineering, e.g. hydraulic, turbo, piston, hybrid engines
Chemical Engineering
- PE1_18 Scientific computing and data processing
- PE1_19 Control theory and optimization
- PE2_15 Thermodynamics
- PE3_13 Structure and dynamics of disordered systems: soft matter (gels, colloids, liquid crystals, etc.), glasses, defects, etc.
- PE4_12 Chemical reactions: mechanisms, dynamics, kinetics and catalytic reactions
- PE4_8 Electrochemistry, electrodialysis, microfluidics, sensors
- PE5_10 Colloid chemistry
- PE5_14 Macromolecular chemistry
- PE5_15 Polymer chemistry
- PE5_7 Biomaterials synthesis
- PE6_12 Scientific computing, simulation and modelling tools
- PE8_11 Environmental engineering, e.g. sustainable design, waste and water treatment, recycling, regeneration or recovery of compounds, carbon capture & storage
- PE8_2 Chemical engineering, technical chemistry
- PE8_9 Production technology, process engineering
Chemistry
- LS7_3 Nanomedicine
- LS9_1 Bioingeneering for synthetic and chemical biology
- LS9_11 Biomass production and utilisation, biofuels
- LS9_4 Microbial biotechnology and bioengineering
- PE4_1 Physical chemistry
- PE4_10 Heterogeneous catalysis
- PE4_12 Chemical reactions: mechanisms, dynamics, kinetics and catalytic reactions
- PE4_13 Theoretical and computational chemistry
- PE4_15 Photochemistry
- PE4_17 Characterisation methods of materials
- PE4_3 Molecular architecture and structure
- PE4_4 Surface science and nanostructures
- PE4_6 Chemical physics
- PE4_9 Method development in chemistry
- PE5_1 Structural properties of materials
- PE5_13 Homogeneous catalysis
- PE5_14 Macromolecular chemistry
- PE5_15 Polymer chemistry
- PE5_16 Supramolecular chemistry
- PE5_17 Organic chemistry
- PE5_2 Solid state materials
- PE5_5 Ionic liquids
- PE5_8 Intelligent materials - Self assembled materials
- PE5_9 Coordination chemistry
Materials
- PE11_1 Engineering of biomaterials, biomimetic, bioinspired and bio-enabled materials
- PE11_10 Soft materials engineering, e.g. gels, foams, colloids
- PE11_12 Semi-conducting and magnetic materials engineering
- PE11_2 Engineering of metals and alloys
- PE11_3 Engineering of ceramics and glasses
- PE11_4 Engineering of polymers and plastics
- PE11_5 Engineering of composites and hybrid materials
- PE11_6 Engineering of carbon materials
- PE11_7 Engineering of metal oxides
- PE11_9 Nanomaterials engineering, e.g. nanoparticles, nanoporous materials, 1D & 2D nanomaterials
- PE3_1 Structure of solids, material growth and characterisation
- PE3_12 Molecular electronics
- PE4_1 Physical chemistry
- PE4_16 Corrosion
- PE4_17 Characterisation methods of materials
- PE4_2 Spectroscopic and spectrometric techniques
- PE4_4 Surface science and nanostructures
- PE4_8 Electrochemistry, electrodialysis, microfluidics, sensors
- PE5_1 Structural properties of materials
- PE5_10 Colloid chemistry
- PE5_14 Macromolecular chemistry
- PE5_3 Surface modification
- PE5_4 Thin films
- PE5_8 Intelligent materials - Self assembled materials
- PE7_3 Simulation engineering and modelling
- PE7_5 (Micro- and nano-) electronic, optoelectronic and photonic components
- PE8_11 Environmental engineering, e.g. sustainable design, waste and water treatment, recycling, regeneration or recovery of compounds, carbon capture & storage
- PE8_3 Civil engineering, architecture, maritime/hydraulic engineering, geotechnics, waste treatment